Browse > Article
http://dx.doi.org/10.7842/kigas.2013.17.6.58

A Study on MDA Analysis & blood chemical test for Mouse which were exposed HF Gases from Fire  

Cho, Nam-Wook (Fire Disaster prevention research center, Korea Institute of Construction Technology (KICT))
Oh, Eun-Ha (NEODIN Medical Institute)
Publication Information
Journal of the Korean Institute of Gas / v.17, no.6, 2013 , pp. 58-66 More about this Journal
Abstract
Among the risks which can be faced with fire, combustion toxicity is a significant influence on the survival. Fire toxicity researches have been limited generally on the lethal aspects. In this study, HF gas which can be generated from fire, and also found in general industrial site was used for analysis. Blood analysis and biochemistry analysis performed to find internal demage of experimental animals which were used for measuring average activity stopping time from Animal test(KS F2271: Gas hazard test). In addition, Using the malondialdehyde analysis, indicators of oxidative damage, we had quantitative analysis to target lymphocyte for measuring the oxidative damage caused by toxic substances.
Keywords
blood chemical test; animal test; MDA; combustion toxicology;
Citations & Related Records
연도 인용수 순위
  • Reference
1 R.A. Anderson, A.A. Watson, and W.A. Harland, Med. Sci.Law, 21, p. 175 (1981).   DOI
2 H.L. Kaplan, A.F. Grand, and G.E. Hartzell, Combustion Toxicology : Principles and Test Methods, Technomic, Lancaster, PA (1983).
3 N. W. Cho, Study of Combustibility Test of Sandwich Panel, Architectural Institute of Korea, Journal of Scholar Conference, Article 26, NO.1 (2006).
4 FTP Code, International Code for Application of Fire Test Procedures(2002)
5 ISO 13344, "Determination of the Lethal Toxic Potency of Fire Effluents," International Organization for Standardization, Geneva, Switzerland, (2004)
6 KS F 2271 : 2006 "Test Method of Built-in materials and Structure of flame-retardant Of buildings"
7 K. N. Yi, A Clinicopathologic File Part 3, (2003).